Instruction manual
Figure 5.2. Separation of
S. cerevisiae
chromosomes using angles from 120° to 94°.
Electrophoresis Run Time
The electrophoresis run time is determined by the migration rates of the DNA molecules
under investigation. The migration rates, in turn, are affected by the switch time, field strength,
and field angle. As the migration rate of the DNA molecules decreases, the electrophoresis run
time must increase to adequately resolve the DNA molecules of interest.
5.2 Pulsed Field Conditions by DNA Size
The table below gives suggested run parameters for the various DNA size ranges.
DNA DNA DNA DNA
1-100 kb 0.1 - 2.0 mb 2 - 4 mb > 4 mb
% Agarose 1.0–1.2% 0.8–1.2 % 0.6–1 % 0.5–0.8 %
Buffer 0.5x TBE 0.5x TBE 1.0x TAE 1.0x TAE
Temperature 14 °C 14 °C 14 °C 14 °C
Voltage 6–9 V/cm 4.5–6 V/cm 2–3 V/cm 1.0–2.5 V/cm
Pulse Parameters 0.05–10 sec 10–200 sec 200–1,800 sec 10–60 min
Run Times 2–15 hr 15–30 hr 24–72 hr 72–144 hr
Angle 120° 120° 120°, 106° 106°
5.3 Pulsed Field Conditions by Organism
This table gives run parameters for various types of DNA samples.
DNA Agarose Switch Time Run Time
DNA size (kb) Conc. (seconds) (hours) Voltage Angle [Buffer]
Restriction 0.2
–23 1.2% 0.09 a 3 9 V/cm 120° 0.5x TAE
Fragments
5 kb Ladder 5
–75 1.0% 1–6 b 11 6 V/cm 120° 0.5x TBE
Lambda Ladder 50
–1,000 1.0% 50–90 c 22 6 V/cm 120° 0.5x TBE
Saccharomyces
200–2,200 1.0% 60–120 d 24 6 V/cm 120° 0.5x TBE
cerevisiae
Candida
1,000–4,000 0.8% 120 e 24 3.5 V/cm 106° 1.0x TAE
albicans
240 36
Schizo
- 3,500–5,700 0.8% 1,800 f 72 1.5 V/cm 106° 1.0x TAE
saccharomyces
pombe
Dictostelium
3,600–9,000 0.8% 2,000–7,000 g 158 1.8 V/cm 120° 0.25x TBE
discodium
7,000–9,600 82 1.5 V/cm 120°
(a) 0.09 second single switch time for 3 hours. (b) Ramped switch time from 1 to 6 seconds over 11 hours. (c) Ramped switch time
from 50 to 90 seconds over 22 hours. (d) Ramped switch time from 60 to 120 seconds over 24 hours. (e) 120 second switch time for
24 hours followed by 240 second switch time for 36 hours. (f) 30 minute single switch time for 72 hours. (g) Two blocks, with voltage
change in the second block. Buffer temperature is 10 °C. Cox et al., Proc. Natl. Acad. Sci. USA, 87, 8247-8251 (1990).
22
120° 105° 100° 96° 94°